DE2515185A1 - ELECTRIC SNAP SWITCH - Google Patents

Description

Rudolf Schadow GmbH

D. Michalski

Electrical snap switch

The invention relates to an electrical snap-action switch with a curved elastic plate, which is at Compressive stress by an actuator snaps from a stable position into a metastable position and thereby Contacts closes and / or opens.

Electric snap switches on the 3asis of domed elastic sheets that snap over when the pressure exerts on the arch are already known.

For example, in DT-PS 45 8 89 9 there is an electrical snap-action switch described, in which a snap-over spring member is used, which consists of at least two leaf springs, which are related at the ends. The spring member is designed so that one leaf spring is shorter than the other. Since the two leaf springs of different lengths are connected to one another at the ends, they are curved and can be made to snap over by actuating the interconnected ends. Such snap-on links However, leaf springs of different lengths connected to one another cannot simply be produced una a snap switch with such a spring element has a rather complicated structure.

Än / b - 19.3.1975

609842/0 1 T 1

D. Michalski

From DT-OS 21 02 218 an electrical switch with a snap-over spring member is also known in which the spring member has a frame-like structure and lugs are arranged in the recess of the frame, which with bent out of the plane of the spring using a suitable actuator. By bending out the approaches a snapping of the frame parts to one side or the other is achieved, which is used to actuate switch contacts is used. Here, too, the spring member has a complicated structure and requires expensive actuating devices.

These known snap-action switches also have the disadvantage that they are actuated again after they have been snapped over must to return to the original switch position.

Finally, from DT-OS 23 06 268 an electrical switch with a snap-over spring member in the form of a round domed disc spring known. With this switch, the spring member is in one after it is snapped over metastable position, so that it snaps back into the original position when the pressure is stopped by the actuator. The plate-shaped spring member rests on an annular contact which must be so high that the spring can be pushed through beyond its flatness. The contacts to be operated are on circular lines concentric to the spring support ring. In this known switch, the spring element is very simple constructed, but the switching paths are very short, so that only very low voltages can be switched and there is a risk of a short circuit in the event of contamination.

809842/017 1

~ ^d ~ 251518b

D. Michalski

¹ object of the invention is to provide an electric snap-action switch with an elastic curved plate as Umschnappglied which avoids the disadvantages of the known switch. In particular, the invention is intended to create such snap-action switches with larger contact paths, the switch only consisting of a few and simply constructed parts. In addition, the switch should also be suitable for changeover functions, in particular for non-short-circuiting changeover switches, that is, when actuated, one contact is opened first and only then is a second contact closed. The fixed contacts of the switch, including their leads, should be arranged on one side of a printed circuit board.

In the case of an electrical snap-action switch of the type mentioned at the outset, the above-mentioned tasks are achieved by that the curved elastic sheet is bent or curved along at least one line and with the edges on rests on a flat surface and can be bent along another line by the actuating element.

In the case of the snap switches known so far, the curved resilient member arched completely by the actuating member to the other side in order to achieve the snap effect. The present invention deviates from this in that the elastic plate is not bent over along the curvature takes place, but along another line.

In a preferred embodiment of the invention, the Kink line arranged approximately perpendicular to the bending line of the sheet.

609842/0171

D. Michalski

A particularly simple structure of an electrical snap switch is achieved by this principle, the Contact paths are significantly increased compared to the known snap switches with arched metal sheets.

The kink line along which the sheet metal is snapped over is turned off can be determined in various ways. Once it is possible, on the flat surface, on which the sheet rests, to arrange an abutment in a suitable place and the operating pressure next to the To let the abutment act in such a way that the sheet bends substantially parallel to the abutment. The abutment but can also be formed by the formation of the sheet itself, by placing the sheet in suitable places Has characteristics or approaches that come to rest on the flat surface and like one on the surface arranged abutment cause a defined kink. The characteristics that are used as a support when bending the sheet serve, at the same time form stiffeners within the surface of the sheet. But it can also cause the fold line be defined that weak points are formed in the sheet metal are. Such weak points are, for example, holes or recesses on the edge of the sheet metal.

Another advantageous embodiment is that the sheet is not only curved or curved along a line, but along two intersecting lines, for example along two diagonals. Other embodiments and parts before the invention will be explained in more detail with reference to the figures, which preferred embodiments for the Represent invention.

6098A2 / O1T1

D.Michalski 2 ^ 15185

In Figures 1 and 2 is a preferred embodiment the invention shown schematically with reference to a perspective illustration.

Figures 3 to 6 show a further embodiment of the invention in side view and top view.

Figures 7 to 9 show another embodiment of the Invention in side view and top view.

FIGS. 10 and 11 show a further embodiment of the invention in a perspective view.

Another embodiment of the invention is shown in perspective in FIGS. 12 and 13 _: in which the sheet metal has two fold lines.

FIG. 14 shows the arrangement of several metal sheets which are connected to one another are connected.

Figures 15 and 15 show cross sections through a switch according to the invention.

The principle of a switch according to the invention is in the: Figures 1 and 2 shown in perspective. The elastic sheet 11 is located on a flat base 10, which can be designed as a circuit board. The 3Iech has the shape of a roof that is angled along the bending line 12 is. The angled sheet is more convex. Side by means of the edges 13 on the base 10. on a suitable abutment 14, which is approximately perpendicular to the bending line 12

609842/01

D. Michalski

is arranged. The corners of the sheet 11 lie, preferably with a defined preload, on contact surfaces 15, 16,

17 and 18, which via leads 24 to a circuit arrangement are connected. The preload can be generated directly or indirectly by the actuator. In the Middle below the plate to the side of the abutment 14 iot Another contact 19 is provided, which is also provided with a lead 24. Contacts 15, 16, 17 and 13 become bridged by the sheet metal. For better contact, the parts that are in contact with the fixed contacts of the sheet must be provided with a coating made of a contact material. To operate the switch, as shown in FIG 2 is indicated by the arrow, a pressure is exerted on the sheet metal in the area of the bending line 12 opposite the contact 19. As a result of the abutment 14, the sheet metal kinks, as shown in FIG. 2, approximately along the kink line 21, with it comes into contact with contact 19 and moves away from contacts 17 and 18. The contacts at 15 and 16 remain still closed, so that when switching over the contact IC is connected to the contacts 15 and 16, while the connection between contacts 15 and 16 on the one hand and 17 and

18 on the other hand is interrupted. As can be seen from Figure 2, the position of the abutment 14 and the pressure point can be so be chosen that the contact path is relatively large. First the connections with the contacts 17 and 18 opened and only then closed the connection with contact 19. This is the case with many electronic devices important. As can be seen from Figures 1 and 2, those used in the switch according to the invention are essential Parts very simple. In the embodiment According to Figures 1 and 2, the elastic sheet is rectangular in shape and bent in a roof shape. But the invention is not limited to this rectangular shape and the roof-shaped bend. Instead of a sharp bend 12, the sheet metal

6098A2 / 01T1 ./.

also be more or less arched, if only. the bulge runs along a line.

Another embodiment of the invention is shown in FIGS. Figures 3 and 4 show side views of the elastic plate arranged on the base in the unactuated and in the actuated state. Figure 5 FIG. 3 shows a top view of the arrangement of FIG. 3 and FIG. 6 shows a side view of the arrangement of FIG.

In order to achieve good contact between the sheet metal and the fixed contacts arranged on the base the sheet is also pressed against the contacts in the rest position Dsicht and the corners of the sheet 11 are angled, as this is shown at 23. This makes elastic contact independent of the other reinforcements of the sheet metal achieved. Since the corners rest resiliently on the firm Kontak, there is a slight upon actuation lateral movement of the corners achieved on the fixed contacts, which is advantageous for self-cleaning of the contacts. Instead of of an abutment here, the sheet metal 11 has two approximately hemispherical formations 22, which when actuated come to rest on the base and define the kink line together with the actuation point. As an actuator a ball 2 6 is shown, which is advantageously mounted in a hole of smaller diameter than that of the ball is. As can be seen from FIG. 5, the sheet metal is approximately rectangular in shape and is bent along line 12. the Corners are bent down at 2 3 to achieve resilient contacts. Below the sheet are two fixed contacts 19 and 20 are provided, which come into contact with the sheet metal when it is bent.

6098A2 / 01T1

D. Michalski

251518b

In Figures 7, 8 and 9 is a further embodiment of the invention shown. Here, the sheet metal is provided with additional contact tongues, which further contacts can close and open. In Figures 7 and 8, the arrangement is shown schematically in side view, wherein FIG. 7 shows the arrangement in the non-actuated state and FIG. 8 shows the arrangement in the actuated state. Figure 9 shows a plan view of the arrangement according to FIG. 7. As can be seen from FIG. 9, the approximately rectangular sheet metal is attached with the bending line 12 and bent corners 2 3 on each side a contact tongue 27 is formed, which also has a has a kinked edge.

Approaches molded onto the sheet metal can also be used as an abutment that determines the kink line. One such an arrangement is shown in perspective in FIGS. On the flat surface 10 with the fixed contacts 15, 16, 17, 18 and 19, a roof-shaped bent sheet metal 11 with the bending edge 12 is shown. The corners are Turned off at 23 for better contact. At 2 8 the sheet metal has two approaches that act as an abutment during actuation come to rest on the mat. In Figure 10, the arrangement is shown in the unactuated state, while FIG. 11 shows the state after actuation. The actuator pushes against the fixed contact 19 im Area of the bending line 12 on the sheet metal, as indicated by the arrow. This will open the contacts at 17 and 18 and the contact closed at 19.

609842 / 01T1

2 51 b 1 8 b

D. Michalski

It is not absolutely necessary that the sheet is bent only along a single 3iegelinie, but it is It is also possible to use sheets that are bent along several lines, as shown in perspective in the Figure 12 and 13 is shown. Two bending lines 4 2 are provided here, which form diagonals of the sheet metal. The abutment 14 is cross-shaped and the fixed contacts 43, 44, 45, 46, 47 and 48 are provided below the sheet metal. An actuating member now exerts pressure on the sheet metal against one of the fixed contacts mentioned. It can several actuators may also be provided, so daio by optionally actuating various actuators different switching functions can be triggered.

If a larger number of switches according to the invention are to be arranged in a row, the sheets be punched out of a supply sheet for the individual switches so that they still have a common strip related. Such an arrangement is shown in FIG. The strip 50, through which the sheets are connected, can be used as a common feed line for all switches / will.

As has been explained so far with reference to the figures, a strong upward movement occurs when the plate is actuated Part of the sheet metal, whereby certain contacts with the underlying circuit board are opened. These Upward movement of the sheet when actuated can also be used to close additional switching contacts, if a further circuit board with fixed contacts is arranged above the sheet metal. This plate then has a

. / 609842 / 01T1

D. Michalski

Opening for the actuator. In this way, the number of possible switching functions can be increased even further will.

The actuation of the switching contacts does not necessarily have to be done by hand via an actuator, but can also be made directly or indirectly by the armature of an electromagnet.

A switch according to the invention is shown schematically in section in FIGS. 15 and 16, specifically in FIG. 15 in FIG in the unactuated state and in FIG. 16 in the actuated state. The switch consists essentially of a flat housing part 56 with a cavity in which the elastic plate 51 is arranged. Furthermore, the housing 56 has an opening Guide the actuator 26 on. If the elastic plate 51 is provided with a shoulder or if several plates 14 · connected to a common sheet metal strip are, they can be wedged into a slot in the housing so that the sheet metal is held in the housing. Of the The slot can also be formed through the housing and an additional strip of insulating material 60. Preferably is between the sheet metal strip 50 clamped in the slot and the elastic sheet metal 51 are provided with a kink 61 (FIG. 14), around the elastic sheet metal with a defined preload

• * ■ to

press the corners onto the contacts on the circuit board /. On the underside, the housing is closed off by a shuttering panel 55 which carries the fixed contacts 57. The actuator 26, as shown, can be in the form of a sphere or in the form of a pin. Appropriate the housing is hermetically sealed at its top by a film or membrane. On the housing can an actuating button 59 can also be arranged, which moves the actuating member through the membrane 58.

609842/0 ITI

D. Michalski

To simplify the structure and reduce the number of parts can the actuator 26 directly to the membrane or Foil 5 8 be molded.

However, the invention is not limited to the illustrated embodiments limited. In particular, the sheet metal can also have other outline shapes and with it on its surface special conductive layers or with insulating material layers.

List of reference signs

10 Circuit board 11 elastic sheet metal 12th Bending line 13th edge 14th Abutment 15, 16, 17, Ί
18, 19, 20y ! Contact 21 Kink line 22nd Expression 23 bent corner 24 Contact lead 25th hole 26th Actuator 27 Contact tongue 28 molded approach 42
■■ γ Bending line 43, im, 45}
46, 47, 48J Contact

609842/01? 1

251518b

D. Michalski

50 sheet metal strips 51, 52, 53, 54 elastic sheet metal

55 Circuit board 56 casing 57 Contact 58 foil 59 stud 60 Insulating strips 61 Kink

2 8 claims 6 sheets of drawings

609842/0171

Claims (28)

-13- 251518b D. Michalski Claims Electrical snap-action switch with a curved, elastic sheet metal that is actuated by an actuator when it is subjected to pressure snaps from a stable position to a metastable position and thereby closes contacts and / or opens, characterized in that the sheet is bent along at least one line or is curved, rests with the edges on a flat surface and along another line is kinkable. 2.) Snap switch according to claim 1, characterized in that the kink line is approximately perpendicular to a bending line runs, 3.) Snap switch according to claim 1 or 2, characterized in that that the kink line is determined by an abutment resting on the flat surface. 4.) Snap switch according to claim 3, characterized in that the abutment is formed on the sheet metal Approaches is formed. 5.) Snap switch according to claim 1 or 2, characterized in that that the kink line is determined by at least one embossing in the sheet. 609842/0171 D. Michalski 6.) Snap switch according to claim 1 or 2, characterized in that that the kink line is determined by at least one opening in the sheet metal. 7.) Snap switch according to claim 1 or 2, characterized in that that the kink line is determined by lateral recesses in the sheet metal. 8.) Snap switch according to one or more of the claims 1 to 7, characterized in that the sheet is roof-shaped by bending along its center line. 9.) Snap switch according to one or more of the claims 1 to 7, characterized in that the sheet is bent along two crossing lines. 10.) Snap switch according to claim 8 or 9, characterized in that that the bent sheet metal parts enclose an angle between 90 and 180 ° with one another and the concave side of the sheet metal rests on the flat surface. 11.) Snap switch according to one or more of claims 1 to 10, characterized in that the sheet metal is designed as a polygon and with at least one corner on a mating contact arranged on the flat surface rests. 12.) Snap switch according to claim 11, characterized in that that the sheet is designed as a right-angled parallelogram. 609842 / 01T1 D. Michalski 13.) Snap switch according to claim 11 or 12, characterized in that that at least some of the corners are angled as resilient supports. 14.) Snap switch according to one or more of claims 1 to 13, characterized in that the sheet metal has approaches that act as contact tongues. 15.) Snap switch according to one or more of the preceding claims, characterized in that the The sheet metal has at least one opening in the bending edge, 16.) Snap switch according to claim 15, characterized in that the actuating member in an opening of the sheet engages. 17.) Snap switch according to one or more of the preceding claims, characterized in that on at least one contact surface is arranged on the flat surface below the bending line of the sheet metal. 18.) Snap switch according to claim 17, characterized in that that on the flat support surface under the sheet metal at least two contacts in one switch position are bridged. 19.) Snap switch according to claim 18, characterized in that that in a switching position at least two contacts arranged on the flat support surface are bridged by the sheet metal and in the other switch position at least two others 609842 / 01T1 D. Michalski contacts arranged on the contact surface are bridged by the sheet metal, 20.) Snap switch according to claim 18 and 19, characterized in that that a roof-shaped rectangular plate with kinked in the longitudinal direction Provide corners with an abutment roughly in the middle of the long side and parallel to the transverse side is that under the kinked corners and below the point of application of the actuator on the flat support surface mating contacts are arranged and that the point of application of the actuator is chosen in the longitudinal center line of the sheet so that two corner contacts when snapping the sheet remain closed and that two corner contacts are opened and then the center contact is closed. 21.) Snap switch according to one or more of the preceding claims, characterized in that at least the parts of the sheet metal intended for contact with a coating made of a contact material are provided. 22.) Snap switch according to one or more of the preceding claims, characterized in that the Contacts arranged on the flat support surface are formed as conductor tracks of a printed circuit are. . / 609842/0171 D. Michalski 23.) Snap switch according to one or more of the preceding claims, characterized in that above and below the sheet metal a respective insulating plate with fixed contacts is arranged, each of which are in a switching position with the sheet in contact and that one insulating material plate Has breakthrough for the actuator. 24.) Snap switch according to one or more of the preceding claims, characterized in that the The actuating member can be actuated directly or indirectly by the armature of an electromagnet. 25.) Snap switch according to one or more of the preceding claims, characterized in that the Sheets of several switches are connected to one another via a connecting web. 26.) Snap switch according to one or more of the preceding claims, characterized in that one Printed circuit board with fixed contacts forms the conclusion of a flat housing in which the sheet metal is arranged and in a guide of the housing part opposite the printed circuit board, an actuating pin or a ball is guided. 27.) Snap switch according to claim 26, characterized in that the opposite of the circuit board Housing part is completed by a flexible membrane. 60984 2/0171 D. Michalski 28.) Snap switch according to claim 27, characterized in that the actuating member is molded onto the membrane is. An / pr - 19.3.1975 609842 / 01T1 Blank page